.TH std::type_info::hash_code 3 "2024.06.10" "http://cppreference.com" "C++ Standard Libary"
.SH NAME
std::type_info::hash_code \- std::type_info::hash_code

.SH Synopsis
   std::size_t hash_code() const noexcept;  \fI(since C++11)\fP

   Returns an unspecified value (here denoted by hash code) such that for all
   std::type_info objects referring to the same type, their hash code is the same.

   No other guarantees are given: std::type_info objects referring to different types
   may have the same hash code (although the standard recommends that implementations
   avoid this as much as possible), and hash code for the same type can change between
   invocations of the same program.

.SH Parameters

   \fI(none)\fP

.SH Return value

   A value that is identical for all std::type_info objects referring to the same type.

.SH Example

   The following program is an example of an efficient type-value mapping without using
   std::type_index.


// Run this code

 #include <functional>
 #include <iostream>
 #include <memory>
 #include <string>
 #include <typeinfo>
 #include <unordered_map>

 struct A
 {
     virtual ~A() {}
 };

 struct B : A {};
 struct C : A {};

 using TypeInfoRef = std::reference_wrapper<const std::type_info>;

 struct Hasher
 {
     std::size_t operator()(TypeInfoRef code) const
     {
         return code.get().hash_code();
     }
 };

 struct EqualTo
 {
     bool operator()(TypeInfoRef lhs, TypeInfoRef rhs) const
     {
         return lhs.get() == rhs.get();
     }
 };

 int main()
 {
     std::unordered_map<TypeInfoRef, std::string, Hasher, EqualTo> type_names;

     type_names[typeid(int)] = "int";
     type_names[typeid(double)] = "double";
     type_names[typeid(A)] = "A";
     type_names[typeid(B)] = "B";
     type_names[typeid(C)] = "C";

     int i;
     double d;
     A a;

     // note that we're storing pointer to type A
     std::unique_ptr<A> b(new B);
     std::unique_ptr<A> c(new C);

     std::cout << "i is " << type_names[typeid(i)] << '\\n';
     std::cout << "d is " << type_names[typeid(d)] << '\\n';
     std::cout << "a is " << type_names[typeid(a)] << '\\n';
     std::cout << "*b is " << type_names[typeid(*b)] << '\\n';
     std::cout << "*c is " << type_names[typeid(*c)] << '\\n';
 }

.SH Output:

 i is int
 d is double
 a is A
 *b is B
 *c is C

.SH See also

   operator==         checks whether the objects refer to the same type
   operator!=         \fI(public member function)\fP
   (removed in C++20)
   name               implementation defined name of the type
                      \fI(public member function)\fP
